OP - Image Formation and Ray Tracing - Week 3 Flashcards
What is the minimum number of rays that need to be traced to determine the image position, not including the optical axis?
2.
How are virtual images formed? Describe how they can be identified in terms of projection screen placement.
Consider an optical system that diverges a beam.
If the diverging beams are ray-traced, they will converge at a point different to the object location., and thus appear to be closer or further away.
A projection screen cannot be placed on the image plane to form an image.
What is a beam that is neither convergent nor divergent considered to be?
Neither real nor virtual.
Or can be considered an image at infinity.
Describe the sign conventions with the optical axis as the focus.
Distances above or to the right of the optical axis are positive.
Below and to the left are negative.
When are angles positive/negative?
Counterclockwise to the normal - positive
Clockwise to the normal - negative
Describe the steps of ray-tracing.
Use the sine rule to find the angle i Calculate i' using snells law Calculate angle g calculate angle u' Find distance l' Find l for the next surface Back to step 1 if another surface exists
What are aberrations? How does paraxial optics fit into this? How does this explain the mechanisms of increased visual acuity from pinholes?
Lenses do not focus onto a single convergent point, instead are spread out.
Close to the optical axis however, the the rays do converge very well onto a single point - paraxial optics.
Hence why pinholes increase visual acuity, by blocking aberrations.
